Timeline of solar cells explained

In the 19th century, it was observed that the sunlight striking certain materials generates detectable electric current – the photoelectric effect. This discovery laid the foundation for solar cells. Solar cells have gone on to be used in many applications. They have historically been used in situations where electrical power from the grid was unavailable.

As the invention was brought out it made solar cells as a prominent utilization for power generation for satellites. Satellites orbit the Earth, thus making solar cells a prominent source for power generation through the sunlight falling on them. Solar cells are commonly used in satellites in today's times.

1800s

1900–1929

1930–1959

1960–1979

1980–1999

2000–2019

2020s

2020

2021

2022

2024

See also

External links

Notes and References

  1. Web site: Recreating Edmond Becquerel's electrochemical actinometer. https://web.archive.org/web/20200507163731/https://www.unige.ch/sphn/Publications/ArchivesSciences/AdS%202004-2015/AdS%202005%20Vol%2058%20Fasc%202/149-158_58_2.pdf. 7 May 2020. 7 May 2020.
  2. Becquerel . Alexandre Edmond . Recherche sur les effets de la radiation chimique de la lumière solaire, au moyen des courants électriques . Comptes rendus hebdomadaires des séances de l'Académie des sciences . 1839 . 9 . 145–149 . 7 May 2020.
  3. Smith . Willoughby . Effect of Light on Selenium During the Passage of An Electric Current . Nature . 20 February 1873 . 7 . 173 . 303 . 10.1038/007303e0. 1873Natur...7R.303. . free .
  4. Book: Maxwell . James Clerk . The Scientific Letters and Papers of James Clerk Maxwell: Volume 3, 1874-1879 . April 1874 . P. M. Harman . Cambridge, UK . 978-0-521-25627-8 . 67 . 7 May 2020 . 27 October 2021 . https://web.archive.org/web/20211027213439/https://books.google.com/books?id=JbNK9lRLHPEC&pg=PA67 . live .
  5. Web site: Photovoltaic Dreaming 1875–1905: First Attempts At Commercializing PV. 31 December 2014. 8 April 2017. 25 May 2017. https://wayback.archive-it.org/all/20170525170459/https://cleantechnica.com/2014/12/31/photovoltaic-dreaming-first-attempts-commercializing-pv/. live.
  6. Issue date: May 7, 1935. https://www.google.com/patents?id=QNh4AAAAEBAJ&pg=PA2&lpg=PA2&dq=%22this+invention+relates+to+photoelectric+devices+and+more+particularly+to%22lamb&source=bl&ots=XzsdoV3IEx&sig=bfrJAf1YEM6qI8ODcu8qRzEMYC8&hl=en&ei=YFYtTbTtPMKt8Aaa162NCQ&sa=X&oi=book_result&ct=result&resnum=1&ved=0CBYQ6AEwAA#v=onepage&q=%22this%20invention%20relates%20to%20photoelectric%20devices%20and%20more%20particularly%20to%22lamb&f=false https://www.google.com/search?q=patent+lamb+%222000642%22&hl=en&num=10&lr=&ft=i&cr=&safe=images&tbs=#sclient=psy&hl=en&lr=&tbs=bks:1&q=%22AH+Lamb.+2.000%2C042%22&aq=&aqi=&aql=f&oq=&gs_rfai=&pbx=1&fp=fc8aae4abccfd483
  7. Useless No More: Gordon K. Teal, Germanium, and Single-Crystal Transistors . David C. Brock . Chemical Heritage Magazine . 24 . 1 . Chemical Heritage Foundation . Spring 2006 . 2008-01-21. https://web.archive.org/web/20100615124737/http://www.chemheritage.org/pubs/ch-v24n1-articles/haw_germanium.html. June 15, 2010.
  8. April 25, 1954: Bell Labs Demonstrates the First Practical Silicon Solar Cell . APS News . 18 . 4 . April 2009 . American Physical Society . May 15, 2014 . January 28, 2018 . https://web.archive.org/web/20180128132644/https://www.aps.org/publications/apsnews/200904/physicshistory.cfm . live .
  9. A New Silicon p-n Junction Photocell for Converting Solar Radiation into Electrical Power . D. M. Chapin . C. S. Fuller . G. L. Pearson . amp . Journal of Applied Physics . 25 . 5 . May 1954 . 676–677 . 10.1063/1.1721711. 1954JAP....25..676C .
  10. Book: Black . Lachlan E. . New Perspectives on Surface Passivation: Understanding the Si-Al2O3 Interface . 2016 . Springer . 978-3-319-32521-7 . 13 . 2019-10-05 . 2021-03-04 . https://web.archive.org/web/20210304010528/https://core.ac.uk/download/pdf/156698511.pdf . live .
  11. Book: Lojek . Bo . History of Semiconductor Engineering . limited . 2007 . . 978-3-540-34258-8 . 120& 321-323.
  12. Book: Black . Lachlan E. . New Perspectives on Surface Passivation: Understanding the Si-Al2O3 Interface . 2016 . Springer . 978-3-319-32521-7 . 2019-10-05 . 2021-03-04 . https://web.archive.org/web/20210304010528/https://core.ac.uk/download/pdf/156698511.pdf . live .
  13. Web site: Solar watches. 8 April 2017. 1 April 2017. https://web.archive.org/web/20170401063358/http://www.uniquewatchguide.com/solar-watches.html. live.
  14. Alferov, Zh. I., V. M. Andreev, M. B. Kagan, I. I. Protasov, and V. G. Trofim, 1970, Solar-energy converters based on p-n AlxGa12xAs-GaAs heterojunctions, Fiz. Tekh. Poluprovodn. 4, 2378 (Sov. Phys. Semicond. 4, 2047 (1971))
  15. http://www.im.isu.edu.tw/seminar/2005.11.16.pdf Nanotechnology in energy applications
  16. http://nobelprize.org/nobel_prizes/physics/laureates/2000/alferov-lecture.pdf Nobel Lecture
  17. Web site: Florida Solar Energy Center. 8 April 2017. 20 November 2008. https://web.archive.org/web/20081120030420/http://www2.fsec.ucf.edu/. live.
  18. Web site: Calculator Time-line. 8 April 2017. 17 July 2011. https://web.archive.org/web/20110717205933/http://www.vintagecalculators.com/html/calculator_time-line.html. live.
  19. Web site: Geschichte - Fraunhofer ISE .
  20. Eguren . Javier . Martínez-Moreno . Francisco . Merodio . Pablo . Lorenzo . Eduardo . 2022 . First bifacial PV modules early 1983 . . 243 . 327–335 . 10.1016/j.solener.2022.08.002 . 2022SoEn..243..327E . 251552073 . 0038-092X.
  21. Catalano . A. . D'Aiello . R. V. . Dresner . J. . Faughnan . B. . Firester . A. . Kane . J. . Schade . H. . Smith . Z. E.. Schwartz . G. . Triano . A. . Attainment of 10% Conversion Efficiency in Amorphous Silicon Solar Cells . Proceedings of the 16th IEEE Photovoltaic Specialists Conference, San Diego, California . 1982 . 1421.
  22. Switching To Solar, Bob Johnstone, 2011, Prometheus Books
  23. Web site: White House installs solar-electric system - 1/22/2003 - ENN.com . 29 February 2004 . 8 April 2017 . dead . https://web.archive.org/web/20040229143156/http://www.enn.com/news/enn-stories/2003/01/01222003/s_49387.asp . 29 February 2004 .
  24. Simone Pulver, Barry G. Rabe, Peter J. Stoett, Changing Climates in North American Politics: Institutions, Policymaking, and Multilevel Governance, MIT Press, 2009, p. 67
  25. Web site: California Solar Initiative . 2007-07-12 . 2008-09-07 . https://web.archive.org/web/20080907010336/http://www.cpuc.ca.gov/static/energy/solar/ .
  26. New World Record Achieved in Solar Cell Technology . . December 5, 2006 . 2020-11-30 . 2020-10-30 . https://web.archive.org/web/20201030172134/https://www.energy.gov/articles/new-world-record-achieved-solar-cell-technology . live .
  27. Web site: Solar World: Vatican installs solar panels . May 31, 2007 . Krauss . Leah . . 2008-01-16 . https://web.archive.org/web/20080413085542/http://www.upi.com/Energy/Analysis/2007/05/31/solar_world_vatican_installs_solar_panels/3090/ . April 13, 2008 .
  28. Web site: From 40.7 to 42.8 % Solar Cell Efficiency . July 30, 2007 . 2008-01-16 . 2007-10-18 . https://web.archive.org/web/20071018203354/http://www.renewableenergyaccess.com/rea/news/story?id=49483 .
  29. Web site: Nanosolar Ships First Panels . Nanosolar Blog . 2008-01-22 . https://web.archive.org/web/20080116115139/http://www.nanosolar.com/blog3/2007/12/18/nanosolar-ships-first-panels/ . 2008-01-16 .
  30. Web site: Nanosolar - Products . Nanosolar.com . 2008-01-22 . 2009-05-05 . https://web.archive.org/web/20090505221834/http://www.nanosolar.com/products.htm . live .
  31. News: NREL Public Relations . 2008-08-13 . NREL Solar Cell Sets World Efficiency Record at 40.8 Percent . National Renewable Energy Laboratory . 2008-09-29 . https://web.archive.org/web/20080917040839/http://www.nrel.gov/news/press/2008/625.html . 2008-09-17 .
  32. News: Stephen Clark . H-2A Launch Report – Mission Status Center . Spaceflight Now . 20 May 2010 . 21 May 2010 . 20 May 2010 . https://web.archive.org/web/20100520013452/http://spaceflightnow.com/h2a/akatsuki/status.html . live .
  33. Web site: Launch Day of the H-IIA Launch Vehicle No. 17(H-IIA F17) . JAXA . 3 March 2010 . 7 May 2010 . 3 June 2013 . https://web.archive.org/web/20130603022829/http://www.jaxa.jp/press/2010/03/20100303_h2af17_e.html . live .
  34. News: White House goes solar . Juliet Eilperin . October 6, 2010 . . October 5, 2010 . October 7, 2012 . https://web.archive.org/web/20121007031224/http://voices.washingtonpost.com/44/2010/10/white-house-goes-solar.html . live .
  35. News: Solyndra and the shakeout: the recent solar bankruptcies in context . Mike Koshmrl . Seth Masia . amp . Nov–Dec 2010 . . 2011-11-29 . 2011-11-20 . https://web.archive.org/web/20111120004907/http://www.solartoday-digital.org/solartoday/20111112#pg12 . live .
  36. News: White House solar panels being installed this week . The Washington Post . 2017-09-16 . 2015-07-01 . https://web.archive.org/web/20150701053343/http://www.washingtonpost.com/blogs/post-politics/wp/2013/08/15/white-house-solar-panels-finally-being-installed/ . live .
  37. Web site: ARENA supports another solar world record. Australian Government - Australian Renewable Energy Agency. 18 May 2016. 14 June 2016. 22 June 2016. https://web.archive.org/web/20160622171244/http://arena.gov.au/news/arena-supports-another-solar-world-record/. live.
  38. Web site: Why the future of solar may not be silicon-based. Richard. Martin. 8 April 2017. 27 February 2017. https://web.archive.org/web/20170227151855/https://www.technologyreview.com/s/600922/first-solars-cells-break-efficiency-record/. live.
  39. Web site: Kenning T. Alta Devices sets GaAs solar cell efficiency record at 29.1%, joins NASA space station testing. PV-Tech. December 13, 2018 5:13 AM GMT . 13 December 2018 . January 12, 2019 . December 13, 2018 . https://web.archive.org/web/20181213122230/https://www.pv-tech.org/news/alta-devices-sets-gaas-solar-cell-efficiency-record-at-29.1-joins-nasa-spac . live .
  40. Web site: Alta sets flexible solar record with 29.1% GaAs cell. optics.org. 2021-10-27. 2021-03-06. https://web.archive.org/web/20210306075236/https://optics.org/news/9/12/19. live.
  41. News: Clercq . Geert De . Europe's first solar panel recycling plant opens in France . 26 June 2021 . Reuters . 2018-06-25 . en . 2021-06-26 . https://web.archive.org/web/20210626210031/https://www.reuters.com/article/us-solar-recycling-idUSKBN1JL28Z . live .
  42. Geisz . J. F. . Steiner . M. A. . Jain . N. . Schulte . K. L. . France . R. M. . McMahon . W. E. . Perl . E. E. . Friedman . D. J. . Building a Six-Junction Inverted Metamorphic Concentrator Solar Cell . IEEE Journal of Photovoltaics . March 2018 . 8 . 2 . 626–632 . 10.1109/JPHOTOV.2017.2778567 . 1417798 . 2156-3403. free .
  43. Web site: A new solar technology could be the next big boost for renewable energy . 26 December 2018 . 2020-11-30 . 2018-12-27 . https://web.archive.org/web/20181227041013/https://techcrunch.com/2018/12/26/a-new-solar-technology-could-be-the-next-big-boost-for-renewable-energy/ . live .
  44. News: New solar cells extract more energy from sunshine . The Economist . 2020-11-30 . 2020-11-30 . https://web.archive.org/web/20201130022836/https://www.economist.com/science-and-technology/2020/05/21/new-solar-cells-extract-more-energy-from-sunshine . live .
  45. Geisz . John F. . France . Ryan M. . Schulte . Kevin L. . Steiner . Myles A. . Norman . Andrew G. . Guthrey . Harvey L. . Young . Matthew R. . Song . Tao . Moriarty . Thomas . Six-junction III–V solar cells with 47.1% conversion efficiency under 143 Suns concentration . Nature Energy . April 2020 . 5 . 4 . 326–335 . 10.1038/s41560-020-0598-5 . 2020NatEn...5..326G . 1659948 . 216289881 . 16 September 2020 . en . 2058-7546 . 7 August 2020 . https://web.archive.org/web/20200807210331/https://www.nature.com/articles/s41560-020-0598-5 . live .
  46. Kojima. Akihiro. Teshima. Kenjiro. Shirai. Yasuo. Miyasaka. Tsutomu. Organometal Halide Perovskites as Visible-Light Sensitizers for Photovoltaic Cells. Journal of the American Chemical Society. May 6, 2009. 131. 17. 6050–6051. 10.1021/ja809598r. 19366264.
  47. Web site: NREL efficiency chart. 2020-11-30. 2020-11-28. https://web.archive.org/web/20201128044916/https://www.nrel.gov/pv/assets/pdfs/best-research-cell-efficiencies.20190802.pdf. live.
  48. News: Light to electricity: New multi-material solar cells set new efficiency standard . 5 April 2020 . phys.org . en-us . 28 March 2020 . https://web.archive.org/web/20200328222054/https://phys.org/news/2020-03-electricity-multi-material-solar-cells-efficiency.html . live .
  49. Xu . Jixian . Boyd . Caleb C. . Yu . Zhengshan J. . Palmstrom . Axel F. . Witter . Daniel J. . Larson . Bryon W. . France . Ryan M. . Werner . Jérémie . Harvey . Steven P. . Wolf . Eli J. . Weigand . William . Manzoor . Salman . Hest . Maikel F. A. M. van . Berry . Joseph J. . Luther . Joseph M. . Holman . Zachary C. . Michael D. McGehee . McGehee . Michael D. . Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems . Science . 6 March 2020 . 367 . 6482 . 1097–1104 . 10.1126/science.aaz5074 . 32139537 . 2020Sci...367.1097X . 212561010 .
  50. News: Research points to strategies for recycling of solar panels . techxplore.com . en . 2021-06-26 . 2021-06-26 . https://web.archive.org/web/20210626204913/https://techxplore.com/news/2020-07-strategies-recycling-solar-panels.html . live .
  51. Heath . Garvin A. . Silverman . Timothy J. . Kempe . Michael . Deceglie . Michael . Ravikumar . Dwarakanath . Remo . Timothy . Cui . Hao . Sinha . Parikhit . Libby . Cara . Shaw . Stephanie . Komoto . Keiichi . Wambach . Karsten . Butler . Evelyn . Barnes . Teresa . Wade . Andreas . Research and development priorities for silicon photovoltaic module recycling to support a circular economy . Nature Energy . July 2020 . 5 . 7 . 502–510 . 10.1038/s41560-020-0645-2 . 2020NatEn...5..502H . 220505135 . 26 June 2021 . en . 2058-7546 . 21 August 2021 . https://web.archive.org/web/20210821071335/https://www.nature.com/articles/s41560-020-0645-2 . live .
  52. Web site: Crystal structure discovered almost 200 years ago could hold key to solar cell revolution. 2020-07-04. phys.org. en. 2020-07-04. https://web.archive.org/web/20200704004024/https://phys.org/news/2020-07-crystal-years-key-solar-cell.html. live.
  53. Lin . Yen-Hung . Sakai . Nobuya . Da . Peimei . Wu . Jiaying . Sansom . Harry C. . Ramadan . Alexandra J. . Mahesh . Suhas . Liu . Junliang . Oliver . Robert D. J. . Lim . Jongchul . Aspitarte . Lee . Sharma . Kshama . Madhu . P. K. . Morales‐Vilches . Anna B. . Nayak . Pabitra K. . Bai . Sai . Gao . Feng . Grovenor . Chris R. M. . Johnston . Michael B. . Labram . John G. . Durrant . James R. . Ball . James M. . Wenger . Bernard . Stannowski . Bernd . Snaith . Henry J. . A piperidinium salt stabilizes efficient metal-halide perovskite solar cells . Science . 2 July 2020 . 369 . 6499 . 96–102 . 10.1126/science.aba1628 . 32631893 . 2020Sci...369...96L . 10044/1/82840 . 220304363 . 30 November 2020 . 13 September 2020 . https://web.archive.org/web/20200913051951/https://cronfa.swan.ac.uk/Record/cronfa54855/Download/54855__17834__56da1616101640a481cb01c071a91ebc.pdf . live .
  54. News: Both-sides-contacted solar cell sets new world record of 26 percent efficiency . 10 May 2021 . techxplore.com . en . 10 May 2021 . https://web.archive.org/web/20210510161820/https://techxplore.com/news/2021-04-both-sides-contacted-solar-cell-world-percent.html . live .
  55. Richter . Armin . Müller . Ralph . Benick . Jan . Feldmann . Frank . Steinhauser . Bernd . Reichel . Christian . Fell . Andreas . Bivour . Martin . Hermle . Martin . Glunz . Stefan W. . Design rules for high-efficiency both-sides-contacted silicon solar cells with balanced charge carrier transport and recombination losses . Nature Energy . April 2021 . 6 . 4 . 429–438 . 10.1038/s41560-021-00805-w . 2021NatEn...6..429R . 234847037 . 10 May 2021 . en . 2058-7546 . 27 October 2021 . https://web.archive.org/web/20211027213451/https://www.nature.com/platform/track/preview/s41560-021-00805-w . live .
  56. News: "Molecular glue" strengthens the weak point in perovskite solar cells . 13 June 2021 . New Atlas . 2021-05-10 . 2021-06-13 . https://web.archive.org/web/20210613230044/https://newatlas.com/energy/molecular-glue-strengthens-perovskite-solar-cells-stability/ . live .
  57. Dai . Zhenghong . Yadavalli . Srinivas K. . Chen . Min . Abbaspourtamijani . Ali . Qi . Yue . Padture . Nitin P. . Interfacial toughening with self-assembled monolayers enhances perovskite solar cell reliability . Science . 2021-05-07 . 372 . 6542 . 618–622 . 10.1126/science.abf5602 . 33958474 . 2021Sci...372..618D . 233872843 . 13 June 2021 . en . 0036-8075 . 2021-06-13 . https://web.archive.org/web/20210613230053/https://science.sciencemag.org/content/372/6542/618 . live .
  58. News: Polish firm opens cutting-edge solar energy plant . 23 June 2021 . techxplore.com . en . 24 June 2021 . https://web.archive.org/web/20210624204318/https://techxplore.com/news/2021-05-firm-cutting-edge-solar-energy.html . live .
  59. News: The Wikipedia of perovskite solar cell research . 19 January 2022 . Helmholtz Association of German Research Centres . en.
  60. T. Jesper Jacobsson . Adam Hultqvist . Alberto García-Fernández . et al. . An open-access database and analysis tool for perovskite solar cells based on the FAIR data principles . Nature Energy . 13 December 2021 . 7 . 107–115 . 10.1038/s41560-021-00941-3 . 245175279 . en . 2058-7546. 10356/163386 . free .
  61. Web site: Solar glass: - ML System opens Quantum Glass production line - pv Europe . 13 December 2021 .
  62. News: Fraunhofer ISE entwickelt effizienteste Solarzelle der Welt mit 47,6 Prozent Wirkungsgrad - Fraunhofer ISE .
  63. Huang . Xinjing . Fan . Dejiu . Li . Yongxi . Forrest . Stephen R. . Multilevel peel-off patterning of a prototype semitransparent organic photovoltaic module . Joule . 20 July 2022 . 6 . 7 . 1581–1589 . 10.1016/j.joule.2022.06.015 . 250541919 . English . 2542-4785. free .
  64. News: Transparent solar panels for windows hit record 8% efficiency . 23 August 2022 . University of Michigan News . 17 August 2020.
  65. Li . Yongxi . Guo . Xia . Peng . Zhengxing . Qu . Boning . Yan . Hongping . Ade . Harald . Zhang . Maojie . Forrest . Stephen R. . Color-neutral, semitransparent organic photovoltaics for power window applications . Proceedings of the National Academy of Sciences . September 2020 . 117 . 35 . 21147–21154 . 10.1073/pnas.2007799117 . 32817532 . 7474591 . 2020PNAS..11721147L . en . 0027-8424. free .
  66. News: Researchers fabricate highly transparent solar cell with 2D atomic sheet . 23 August 2022 . . en.
  67. He . Xing . Iwamoto . Yuta . Kaneko . Toshiro . Kato . Toshiaki . Fabrication of near-invisible solar cell with monolayer WS2 . Scientific Reports . 4 July 2022 . 12 . 1 . 11315 . 10.1038/s41598-022-15352-x . 35787666 . 9253307 . 2022NatSR..1211315H . en . 2045-2322. free.
  68. News: Wells . Sarah . Hair-thin solar cells could turn any surface into a power source . 18 January 2023 . Inverse . en.
  69. Saravanapavanantham . Mayuran . Mwaura . Jeremiah . Bulović . Vladimir . Printed Organic Photovoltaic Modules on Transferable Ultra‐thin Substrates as Additive Power Sources . Small Methods . January 2023 . 7 . 1 . 2200940 . 10.1002/smtd.202200940 . 36482828 . 254524625 . en . 2366-9608. free .
  70. News: Tandem solar cell achieves 32.5 percent efficiency . Science Daily. 19 December 2022 . 21 December 2022 .
  71. Nielsen . Rasmus . Crovetto . Andrea . Assar . Alireza . Hansen . Ole . Chorkendorff . Ib . Vesborg . Peter C.K. . Monolithic Selenium/Silicon Tandem Solar Cells . PRX Energy . 12 March 2024 . 3 . 1 . 10.1103/PRXEnergy.3.013013. 2307.05996 .